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Yapı Malzemesi Seçiminde Kriterler ve Sürdürülebilirliğin Yeri

Year 2024, Volume: 17 Issue: Sürdürülebilir İnsani Kalkınma ve Kent, 334 - 354, 27.10.2024
https://doi.org/10.35674/kent.1448627

Abstract

Yapılar, yaşam döngüleri boyunca başta malzeme ve enerji olmak üzere büyük miktarlarda doğal kaynak tüketmeleri ve atık üretmeleri nedeniyle sürdürülebilirliğin odak noktası haline gelmişlerdir. Yapıları sürdürülebilir hale getirme çabaları yapım yönetim sürecinin büyük kısmını yöneten malzemelerin sürdürülebilirliğiyle başlamaktadır. Bu çalışmada yapı malzemelerinin sürdürülebilirliğinde dikkate alınacak kriterlerin önem seviyelerinin belirlenmesine çalışılmıştır. Bu maksatla çevresel, sosyal ve ekonomik kriterler başlıkları altında toplanmış 25 kriterin sürdürülebilirlik açısından öneminin değerlendirildiği bir anket çalışması gerçekleştirilmiştir. Anket farklı mesleklerden ve farklı demografik özelliklerde 50 kişinin katılımı ile gerçekleştirilmiş, katılımcı görüşlerinin demografik özelliklere göre farklılaşıp farklılaşmadığı çıkarımsal analizlerle incelenmiştir. Çıkarımsal analizlerde sadece iş deneyim süresi için ekonomik kriterlere ilişkin görüşlerin farklılaştığı, cinsiyet, yaş, eğitim seviyesi ve mesleğe göre bir farklılaşma olmadığı tespit edilmiştir. Bu nedenle sonuçların genellenebileceğine karar verilmiş ve kriterlerin göreli önem değerleri belirlenmiştir. Suyun korunumu çevresel dahil tüm kriterler içerisinde ilk sırada yer alırken, sosyal kriterler içerisinde erişilebilirlik ve ekonomik kriterler içerisinde uzun vadeli tasarruf en önemli kriterler olarak tespit edilmiştir. Sonuçlar inşaat sektörünü daha sürdürülebilir hale getirmek için yapı malzemelerinin sürdürülebilirliğinde hangi kriterlere dikkat edilmesi gerektiğini ortaya koymuştur. Bu açıdan çalışmanın hükümetler, yerel yönetimler, yapı malzemesi üreticileri, tasarımcılar, yükleniciler ve en nihayetinde kullanıcılar için yol gösterici olacağı değerlendirilmektedir.

References

  • Adeeb, F., & Shooter, D. (2002). Ozone Highs and Lows in Auckland. Water Atmos, 10(1), 9-11.
  • AHRC. (2008). The Good, the Bad and the Ugly – Design and Construction for, (Australian Human Rights Comission) Retrieved April 9, 2023. from https://humanrights.gov.au/our-work/publications/
  • Aksu, H. (2021). Nonstationary Analysis of the Extreme Temperatures in Türkiye. Dynamics of Atmospheres and Oceans, 95, 101238.
  • Alabi, B., & Fapohunda, J. (2021). Effects of İncrease in the Cost of Building Materials on the Delivery of Affordable Housing in South Africa. Sustainability, 13(4), 1772.
  • Al-Atesh, E. A., Rahmawati, Y., Zawawi, N. A. W. A., & Utomo, C. (2023). A Decision-Making Model for Supporting Selection of Green Building Materials. International Journal of Construction Management, 23(5), 922-933.
  • Alibaba, H. Z., & Deniz, M. B. (2004). A Building Elements Selection System for Architects. Building and Environment, 39(3), 307-316.
  • Anderson, J., & Thornback, J. (2012). A Guide to Understanding the Embodied İmpacts of Construction Products. Construction Products Association, 12(1), 2013.
  • Andrady, A. L., Torikai, A., Redhwi, H. H., Pandey, K. K., & Gies, P. (2015). Consequences of Stratospheric Ozone Depletion and Climate Change on the Use of Materials. Photochemical & Photobiological Sciences, 14(1), 170-184.
  • Anschütz, J., IJgosse, J., & Scheinberg, A. (2004). Putting İntegrated Sustainable Waste Management into Practice. Waste Netherland, 1-102.
  • Arun, M., Baskar, K., Geethapriya, B. S., Jayabarathi, M., & Angayarkkani, R. (2021). Affordable Housing: Cost Effective Construction Materials for Economically Weaker Section. Materials Today: Proceedings, 45, 7838-7844.
  • Ashraf, N., Al Ghonamy, A., Esam, M., Aichouni, M., Abdulwahab, M., & Subhi, O. (2015). Significance of Life Cycle Costing for Selection of Building Construction Materials. In Second Intl. Conf. on Advances in Civil, Structural and Construction Engineering-CSCE (pp. 94-98).
  • Aye, E. (2003). Taking the Pulse. Sustainability and the Interior Design Practice, Retrived November 5, 2023. from http://www.greenbuildingservices.com/news/releases/2003_ 13__55_pulse.pdf
  • Baharetha, S. M., Al-Hammad, A. A., & Alshuwaikhat, H. M. (2013). Towards a Unified Set of Sustainable Building Materials Criteria. In ICSDEC 2012: Developing the Frontier of Sustainable Design, Engineering, and Construction (pp. 732-740).
  • Balm, S., & Ploos Van Amstel, W. (2018). Exploring Criteria for Tendering for Sustainable Urban Construction Logistics. City Logistics 1: New Opportunities and Challenges, 251-263.
  • Baumann, H., & Tillman, A. (2004). The Hitch Hiker's Guide to LCA: An Orientation in Life Cycle Assessment Methodology and Application.
  • Bleby M., (2023). “Embodied Water” is the Latest Challenge for the Building İndustry Retrieved February 20, 2023. from https://www.afr.com/property/commercial/construction-s-next-cost-challenge-embodied-water-
  • Bowling, A., & Ebrahim, S. (2005). Handbook of Health Research Methods: İnvestigation, Measurement and Analysis. McGraw-Hill Education (UK).
  • Bredenoord, J. (2016). Sustainable Housing and Building Materials for Low-İncome Households. Journal of Architectural Engineering Technology, 5(1), 1-9.
  • Bulkeley, H., & Betsill, M. (2005). Rethinking Sustainable Cities: Multilevel Governance and the'Urban'Politics of Climate Change. Environmental politics, 14(1), 42-63.
  • Caldas, C. H., Menches, C. L., Reyes, P. M., Navarro, L., & Vargas, D. M. (2015). Materials Management Practices in the Construction İndustry. Practice Periodical on Structural Design and Construction, 20(3), 04014039.
  • Castro-Lacouture, D., Sefair, J. A., Flórez, L., & Medaglia, A. L. (2009). Optimization Model for the Selection of Materials Using a LEED-Based Green Building Rating System in Colombia. Building and Environment, 44(6), 1162-1170.
  • Chirarattananon, S., & Taveekun, J. (2004). An OTTV-Based Energy Estimation Model for Commercial Buildings in Thailand. Energy and Buildings, 36(7), 680-689.
  • Clayton, M.H. & Radcliffe, N.J. (1996). Sustainability—A Systems Approach. Edinburgh: Westview Press.
  • Clean Air Right Platform. (2022). Kara Rapor 2022 Hava Kirliliği ve Sağlık Etkileri, Retrieved January 10, 2024. from https://www.temizhavahakki.org/wpcontent/uploads/2023/03/KaraRapor_v6.pdf%20P Printworld Matbaa, İstanbul.
  • Cronbach, L. J. (1951). Coefficient Alpha and the İnternal Structure of Tests. Psychometrika, 16(3), 297-334. Cycle Assessment Methodology and Application. 1st ed. 2004: Studentlitteratur AB.
  • Danso, H. (2018). Dimensions and İndicators for Sustainable Construction Materials: A Review. Res. Dev. Mater. Sci, 3(4), 1-9.
  • Dinh, T. H., Dinh, T. H., & Götze, U. (2020). Integration of Sustainability Criteria and Life Cycle Sustainability Assessment Method into Construction Material Selection in Developing Countries: The Case of Vietnam. Int. J. Sustain. Dev. Plan, 15, 1145-1156.
  • Dodge, Y. (Ed.). (2003). The Oxford Dictionary of Statistical Terms. OUP Oxford.
  • DSİ. (2024). Toprak Su Kaynakları, Retrieved May 30, 2024. from https://dsi.gov.tr/Sayfa/Detay/754 Devlet Su İşleri Genel Müdürlüğü.
  • Emrealp, S. (2005). Türkiye Yerel Gündem 21 Programı. Yerel Gündem 21 Uygulamalarına Yönelik Kollaylaştırıcı Bilgiler El Kitabı, IULA- EMME Yayını, İstanbul.
  • Euronews, (2019). Türkiye, 39 Avrupa Ülkesi İçinde Enerjide İthalata En Fazla Bağımlı Beşinci Ülke, Retrieved February 15, 2023. from https://tr.euronews.com/2019/08/29/
  • European Commission, Directorate-General for Energy and Transport. (2020). Vision: Saving Our Energy. Luxembourg: Office for official Publications of the European Communities. Retrieved March 6, 2024. from http://www.energy.eu/
  • Franzoni, E. (2011). Materials Selection for Green Buildings: Which Tools for Engineers and Architects? Procedia Engineering, 21, 883-890.
  • Fulford, R., & Standing, C. (2014). Construction İndustry Productivity and the Potential for Collaborative Practice. International Journal of Project Management, 32(2), 315-326.
  • Fuller, R. J., Crawford, R. H., & Leonard, D. (2009). What is Wrong with a Big House. In Performative Ecologies in the Built Environment: Sustainable Research across Disciplines: Proceedings of the 43rd Annual Conference of the Australian and New Zealand Architectural Science Association ANZAScA, Launceston.
  • George, D. (2011). SPSS for Windows Step by Step: A Simple Study Guide and Reference, 17.0 Update, 10/e. Pearson Education India.
  • Gilbert, R., Stevenson, D., Girardet, H., & Stren, R. (2013). Making Cities Work: Role of Local Authorities in the Urban Environment. Routledge.
  • Golubchikov, O., & Badyina, A. (2012). Sustainable Housing for Sustainable Cities: A Policy Framework for Developing Countries. Nairobi, Kenya: UN-HABITAT.
  • González, M. J., & Navarro, J. G. (2006). Assessment of the Decrease of CO2 Emissions in the Construction Field Through the Selection of Materials: Practical Case Study of Three Houses of Low Environmental İpact. Building and Environment, 41(7), 902-909.
  • Guerlain, C., Renault, S. & Ferrero, F. (2019). Understanding Construction Logistics in Urban Areas and Lowering its Environmental İmpact: A Focus on Construction Consolidation Centres. Sustainability, 11(21), 6118.
  • Home Solutions. (2024). What Does Accessibility Construction Mean? Retrieved January 24, 2024. from https://www.intrendhs.com/what-does-accessibility-construction-mean/
  • Hoşkara, E., & Sey, Y. (2009). Ülkesel Koşullar Bağlamında Sürdürülebilir Yapım. İTÜ Dergisi/a, 7(1).
  • Huo, T., Ren, H., Zhang, X., Cai, W., Feng, W., Zhou, N., & Wang, X. (2018). China’s Energy Consumption in the Building Sector: A Statistical Yearbook-Energy Balance Sheet Based Splitting Method. Journal of Cleaner Production, 185, 665-679.
  • Hwang, B. G., Zhu, L., Wang, Y., & Cheong, X. (2017). Green Building Construction Projects in Singapore: Cost Premiums and Cost Performance. Project Management Journal, 48(4), 67-79.
  • IPCC. (2014). Fifth Assessment Report: Summary for Policy Makers. Intergovernmental Panel on Climate Change Geneva, Switzerland.
  • John, G., Clements-Croome, D., & Jeronimidis, G. (2005). Sustainable Building Solutions: A Review of Lessons from the Natural World. Building and Environment, 40(3), 319-328.
  • Kibert, C. J. (2016). Sustainable Construction: Green Building Design and Delivery. John Wiley & Sons.
  • Kutsal, S., & Polatoğlu, Ç. (2023). Türkiye’de Artan Konut İhtiyacı ve Konut Sorununun Dinamikleri. Topkapı Sosyal Bilimler Dergisi, 2(1), 133-158.
  • LaMotte, L. R. (2017). Proportional Subclass Numbers in Two-Factor ANOVA. Statistics, 1–11. https://doi.org/10.1080/02331888.2017.1319834
  • Latham, A. (2024). Accessibility: How can Accessibility be İmproved in Building Design? Retrieved January 10, 2024. from https://www.latham-australia.com/blog/access-ability-how-can-accessibility-be-improved-in-building-design
  • Low, N. (2000). Consuming Cities: The Urban Environment in the Global Economy After the Rio Declaration. Psychology Press.
  • Mann, P. S. (1995). Introductory Statistics. New York: Wiley.
  • Melchert, L. (2007). The Dutch Sustainable Building Policy: A Model for Developing Countries? Building and Environment, 42(2), 893-901.
  • Ministry of Environment and Urbanization. (2018). Türkiye Çevre Sorunları ve Öncelikleri Değerlendirme Raporu, Ankara.
  • Muerza, V., & Guerlain, C. (2021). Sustainable Construction Logistics in Urban Areas: A Framework for Assessing the Suitability of the İmplementation of Construction Consolidation Centres. Sustainability, 13(13), 7349.
  • Narin, M. & Akdemir S. (2006). Enerji Verimliliği ve Türkiye, UEK-TEK 2006 Uluslararası Ekonomi Konferansı, Türkiye Ekonomi Kurumu, 11-13 Eylül 2006, Ankara.
  • Nassar, K., Thabet, W., & Beliveau, Y. (2003). A Procedure for Multi-Criteria Selection of Building Assemblies. Automation in Construction, 12(5), 543-560.
  • Ozawa-Meida, L., Greenough, R. M., Taylor, S., Acquaye, A., & Ibn-Mohammed, T. (2013). Operational vs. Embodied Emissions in Buildings-A Review of Current Trends, Energy Build 2013; 66:232e45. http://dx.doi.org/10.1016/j.enbuild.2013.07.026.
  • Özmehmet, E. (2008). Dünyada ve Türkiye Sürdürülebilir Kalkinma Yaklaşimlari. Yaşar Üniversitesi E-Dergisi, 3(12), 1853-1876.
  • Park, W. J., Kim, R., Roh, S., & Ban, H. (2020). Analysis of Major Environmental İmpact Categories of Road Construction Materials. Sustainability, 12(17), 6951.
  • Pappu, A., Saxena, M., & Asolekar, S. R. (2007). Solid Wastes Generation in India and Their Recycling Potential in Building Materials. Building and Environment, 42(6), 2311-2320.
  • Purnama, I. (2023). Increasing Understanding of One-Way ANOVA Material for Accounting Students: A Case Study of Deposit Interest. Reflection: Education and Pedagogical Insights, 1(2), 69-73.
  • Rogers, P. P., Jalal, K. F., & Boyd, J. A. (2008). Sustainable development İndicators (pp. 116-122). An İntroduction to Sustainable Development. London: Earthscan.
  • Sala, S., Ciuffo, B. and Nijkamp, P. (2015). A Systemic Framework for Sustainability Assessment. Ecological Economics, 119, pp. 314-325.
  • Sartori, I., & Hestnes, A. G. (2007). Energy use in the Life Cycle of Conventional and Low-Energy Buildings: A Review Article. Energy and Buildings, 39(3), 249-257.
  • Shari, Z., & Soebarto, V. (2012). Delivering Sustainable Building Strategies in Malaysia: Stakeholders’ Barriers and Aspirations. Alam Cipta, International Journal of Sustainable Tropical Design Research and Practice, 5(2), 3-12.
  • Solomon, K. R. (2008). Effects of Ozone Depletion and UV‐B Radiation on Humans and the Environment. Atmosphere-Ocean, 46(1), 185-202.
  • Spanish Presidency of the Council of the European Union. (2023). Gijón Declaration: Housing for All in Sustainable, Healthy, and İnclusive Built Environments, Retrieved Fabruary 15, 2024. from https://spanish-presidency.consilium.europa.eu/en/news/
  • Tatum, M. (2023). What is Economic Sustainability? Retrieved December 15, 2023 from http://www.wisegeek.org/what-is-economic-sustainability.htm
  • The Build Chain. (2023). The Economics of Sustainable Construction Materials: Balancing Cost and Environmental Benefits, Retrieved December 10, 2023. from https://www.thebuildchain.co.uk/news/
  • Tıraş, H. H. (2012). Sürdürülebilir Kalkınma ve Çevre: Teorik Bir İnceleme. Kahramanmaraş Sütçü İmam Üniversitesi İktisadi ve İdari Bilimler Fakültesi Dergisi, 2(2), 57-73.
  • Tillman, A. M. (2009). The Hitch Hiker's Guide to LCA: An Orientation in Life Cycle Assessment Methodology and Application. Studentlitteratur.
  • Treloar, G., Fay, R., Ilozor, B., & Love, P. (2001). Building Materials Selection: Greenhouse Strategies for Built Facilities. Facilities, 19(3/4), 139-150.
  • Turkish Standards Institute. (2023). Su Ayak İzi Raporlama ve Kritik Gözden Geçirme, Retrieved February 23, 2024. from https://www.tse.org.tr/su-ayak-izi-raporlama-ve-kritik-gozden-gecirme/
  • TURKSTAT. (2023). Veri Portalı, Retrieved February 23, 2024. from https://data.tuik.gov.tr/Bulten/Index?p=Istatistiklerle-Aile-2022-49683
  • UN ESCAP. (2021). Report of the Working Group on Dry Ports on its 4th Meeting of Economic and Social Commission for Asia and the Pacific.
  • UN-Habitat. (2011a). Affordable Land and Housing in Africa United Nations Human Settlement Programme.
  • UN-Habitat. (2011b). i-House Strategy Paper, Version 2: 28, UN-Habitat: Nairobi.
  • UN Habitat. (2012). Going Green: A Handbook of Sustainable Housing Practices Nairobi, Kenya United Nations Human Settlements Programme.
  • United Nations Environment Programme. (2024). Beyond Foundations Global Status Report for Buildings and Construction Mainstreaming Sustainable Solutions to Cut Emissions from the Buildings Sector, UNEP and GlobalABC.
  • Van Kesteren, I. E. H. (2008). Product Designers’ İnformation Needs in Materials Selection. Materials & Design, 29(1), 133-145.
  • Wang, W., Zmeureanu, R., & Rivard, H. (2005). Applying Multi-Objective Genetic Algorithms in Green Building Design Optimization. Building and Environment, 40(11), 1512-1525.
  • Wang, M., & Sun, X. (2013). Bayes Factor Consistency for Unbalanced ANOVA Models. Statistics: A Journal of Theoritical and Applied Statistics, 47(5), 1104–1115. https://doi.org/10.1080/02331888.2012.694445
  • WBDG. (2022). Whole Building Design Guide, Retrieved September 10, 2023. from https://www.wbdg.org/design-objectives/accessible
  • WCED, U. (1987). Our Common Future. World Commission on Environment and Development, Oxford University Press.
  • Wilson, J. L., & Tagaza, E. (2006). Green Buildings in Australia: Drivers and Barriers. Australian Journal of Structural Engineering, 7(1), 57-63.
  • Worldometer. (2023). Gerçek Zamanlı Dünya İstatistikleri. Retrieved February 14, 2024. from https://www.worldometers.info/tr/
  • World Green Building Council. (2023). What is a Sustainable Built Environment?, Retrieved February 22, 2024. from https://worldgbc.org/what-is-a-sustainable-built-environment/
  • Yang, L., Yan, H., & Lam, J. C. (2014). Thermal Comfort and Building Energy Consumption İmplications–a Review. Applied energy, 115, 164-173.
  • Yao, R. (2013). Sustainability in the Built Environment. Design and Management of Sustainable Built Environments, 1-22.
  • Yıldız, D., Başlamışlı Y., Özgüler, H., Demir, N. & Kandemir, F., (2021). Doğal Göllerimizin Durumu ve Acil Önlem İhtiyacı, Su Politikaları Derneği, Report no: 41.
  • Zaini, A. A. (2016). A model for İmplementation of Green Construction (Doctoral Dissertation, University Technology MARA).
  • Zhang, X., Platten, A., & Shen, L. (2011). Green Property Development Practice in China: Costs and Barriers. Building and Environment, 46(11), 2153-2160.
  • Zhou, L., Keivani, R., & Kurul, E. (2008). The Economic Benefits of Sustainable PFI Project: A Case Study of Newport Southern Distributor Road.

Criteria in Building Material Selection and The Role of Sustainability

Year 2024, Volume: 17 Issue: Sürdürülebilir İnsani Kalkınma ve Kent, 334 - 354, 27.10.2024
https://doi.org/10.35674/kent.1448627

Abstract

Buildings have become the focal point of sustainability because they consume large amounts of natural resources, especially materials and energy, and produce waste throughout their life cycle. Efforts to make buildings sustainable begin with the sustainability of the materials that govern most of the construction management process. In this study, an attempt was made to determine the importance levels of the criteria to be considered in the sustainability of building materials. For this purpose, a survey study was conducted to evaluate the importance of 25 criteria, grouped under the headings of environmental, social, and economic criteria, in terms of sustainability. The survey was conducted with the participation of 50 people from different professions and with different demographic characteristics, and whether participant opinions differed according to demographic characteristics was examined through inferential analyses. The inferential analyses revealed that the views differed for the work experience and only on economic criteria, and that there was no differentiation according to gender, age, education level and profession. For this reason, it was decided that the results could be generalized, and the relative importance values of the criteria were determined. While water conservation ranks first among all criteria, including environmental, accessibility among social criteria and long-term savings among economic criteria have been determined to be the most important criteria. The results revealed which criteria should be taken into consideration in the sustainability of building materials in order to make the construction industry more sustainable. In this respect, it is evaluated that the study will be a guide for governments, local governments, building material manufacturers, designers, contractors and ultimately users.

References

  • Adeeb, F., & Shooter, D. (2002). Ozone Highs and Lows in Auckland. Water Atmos, 10(1), 9-11.
  • AHRC. (2008). The Good, the Bad and the Ugly – Design and Construction for, (Australian Human Rights Comission) Retrieved April 9, 2023. from https://humanrights.gov.au/our-work/publications/
  • Aksu, H. (2021). Nonstationary Analysis of the Extreme Temperatures in Türkiye. Dynamics of Atmospheres and Oceans, 95, 101238.
  • Alabi, B., & Fapohunda, J. (2021). Effects of İncrease in the Cost of Building Materials on the Delivery of Affordable Housing in South Africa. Sustainability, 13(4), 1772.
  • Al-Atesh, E. A., Rahmawati, Y., Zawawi, N. A. W. A., & Utomo, C. (2023). A Decision-Making Model for Supporting Selection of Green Building Materials. International Journal of Construction Management, 23(5), 922-933.
  • Alibaba, H. Z., & Deniz, M. B. (2004). A Building Elements Selection System for Architects. Building and Environment, 39(3), 307-316.
  • Anderson, J., & Thornback, J. (2012). A Guide to Understanding the Embodied İmpacts of Construction Products. Construction Products Association, 12(1), 2013.
  • Andrady, A. L., Torikai, A., Redhwi, H. H., Pandey, K. K., & Gies, P. (2015). Consequences of Stratospheric Ozone Depletion and Climate Change on the Use of Materials. Photochemical & Photobiological Sciences, 14(1), 170-184.
  • Anschütz, J., IJgosse, J., & Scheinberg, A. (2004). Putting İntegrated Sustainable Waste Management into Practice. Waste Netherland, 1-102.
  • Arun, M., Baskar, K., Geethapriya, B. S., Jayabarathi, M., & Angayarkkani, R. (2021). Affordable Housing: Cost Effective Construction Materials for Economically Weaker Section. Materials Today: Proceedings, 45, 7838-7844.
  • Ashraf, N., Al Ghonamy, A., Esam, M., Aichouni, M., Abdulwahab, M., & Subhi, O. (2015). Significance of Life Cycle Costing for Selection of Building Construction Materials. In Second Intl. Conf. on Advances in Civil, Structural and Construction Engineering-CSCE (pp. 94-98).
  • Aye, E. (2003). Taking the Pulse. Sustainability and the Interior Design Practice, Retrived November 5, 2023. from http://www.greenbuildingservices.com/news/releases/2003_ 13__55_pulse.pdf
  • Baharetha, S. M., Al-Hammad, A. A., & Alshuwaikhat, H. M. (2013). Towards a Unified Set of Sustainable Building Materials Criteria. In ICSDEC 2012: Developing the Frontier of Sustainable Design, Engineering, and Construction (pp. 732-740).
  • Balm, S., & Ploos Van Amstel, W. (2018). Exploring Criteria for Tendering for Sustainable Urban Construction Logistics. City Logistics 1: New Opportunities and Challenges, 251-263.
  • Baumann, H., & Tillman, A. (2004). The Hitch Hiker's Guide to LCA: An Orientation in Life Cycle Assessment Methodology and Application.
  • Bleby M., (2023). “Embodied Water” is the Latest Challenge for the Building İndustry Retrieved February 20, 2023. from https://www.afr.com/property/commercial/construction-s-next-cost-challenge-embodied-water-
  • Bowling, A., & Ebrahim, S. (2005). Handbook of Health Research Methods: İnvestigation, Measurement and Analysis. McGraw-Hill Education (UK).
  • Bredenoord, J. (2016). Sustainable Housing and Building Materials for Low-İncome Households. Journal of Architectural Engineering Technology, 5(1), 1-9.
  • Bulkeley, H., & Betsill, M. (2005). Rethinking Sustainable Cities: Multilevel Governance and the'Urban'Politics of Climate Change. Environmental politics, 14(1), 42-63.
  • Caldas, C. H., Menches, C. L., Reyes, P. M., Navarro, L., & Vargas, D. M. (2015). Materials Management Practices in the Construction İndustry. Practice Periodical on Structural Design and Construction, 20(3), 04014039.
  • Castro-Lacouture, D., Sefair, J. A., Flórez, L., & Medaglia, A. L. (2009). Optimization Model for the Selection of Materials Using a LEED-Based Green Building Rating System in Colombia. Building and Environment, 44(6), 1162-1170.
  • Chirarattananon, S., & Taveekun, J. (2004). An OTTV-Based Energy Estimation Model for Commercial Buildings in Thailand. Energy and Buildings, 36(7), 680-689.
  • Clayton, M.H. & Radcliffe, N.J. (1996). Sustainability—A Systems Approach. Edinburgh: Westview Press.
  • Clean Air Right Platform. (2022). Kara Rapor 2022 Hava Kirliliği ve Sağlık Etkileri, Retrieved January 10, 2024. from https://www.temizhavahakki.org/wpcontent/uploads/2023/03/KaraRapor_v6.pdf%20P Printworld Matbaa, İstanbul.
  • Cronbach, L. J. (1951). Coefficient Alpha and the İnternal Structure of Tests. Psychometrika, 16(3), 297-334. Cycle Assessment Methodology and Application. 1st ed. 2004: Studentlitteratur AB.
  • Danso, H. (2018). Dimensions and İndicators for Sustainable Construction Materials: A Review. Res. Dev. Mater. Sci, 3(4), 1-9.
  • Dinh, T. H., Dinh, T. H., & Götze, U. (2020). Integration of Sustainability Criteria and Life Cycle Sustainability Assessment Method into Construction Material Selection in Developing Countries: The Case of Vietnam. Int. J. Sustain. Dev. Plan, 15, 1145-1156.
  • Dodge, Y. (Ed.). (2003). The Oxford Dictionary of Statistical Terms. OUP Oxford.
  • DSİ. (2024). Toprak Su Kaynakları, Retrieved May 30, 2024. from https://dsi.gov.tr/Sayfa/Detay/754 Devlet Su İşleri Genel Müdürlüğü.
  • Emrealp, S. (2005). Türkiye Yerel Gündem 21 Programı. Yerel Gündem 21 Uygulamalarına Yönelik Kollaylaştırıcı Bilgiler El Kitabı, IULA- EMME Yayını, İstanbul.
  • Euronews, (2019). Türkiye, 39 Avrupa Ülkesi İçinde Enerjide İthalata En Fazla Bağımlı Beşinci Ülke, Retrieved February 15, 2023. from https://tr.euronews.com/2019/08/29/
  • European Commission, Directorate-General for Energy and Transport. (2020). Vision: Saving Our Energy. Luxembourg: Office for official Publications of the European Communities. Retrieved March 6, 2024. from http://www.energy.eu/
  • Franzoni, E. (2011). Materials Selection for Green Buildings: Which Tools for Engineers and Architects? Procedia Engineering, 21, 883-890.
  • Fulford, R., & Standing, C. (2014). Construction İndustry Productivity and the Potential for Collaborative Practice. International Journal of Project Management, 32(2), 315-326.
  • Fuller, R. J., Crawford, R. H., & Leonard, D. (2009). What is Wrong with a Big House. In Performative Ecologies in the Built Environment: Sustainable Research across Disciplines: Proceedings of the 43rd Annual Conference of the Australian and New Zealand Architectural Science Association ANZAScA, Launceston.
  • George, D. (2011). SPSS for Windows Step by Step: A Simple Study Guide and Reference, 17.0 Update, 10/e. Pearson Education India.
  • Gilbert, R., Stevenson, D., Girardet, H., & Stren, R. (2013). Making Cities Work: Role of Local Authorities in the Urban Environment. Routledge.
  • Golubchikov, O., & Badyina, A. (2012). Sustainable Housing for Sustainable Cities: A Policy Framework for Developing Countries. Nairobi, Kenya: UN-HABITAT.
  • González, M. J., & Navarro, J. G. (2006). Assessment of the Decrease of CO2 Emissions in the Construction Field Through the Selection of Materials: Practical Case Study of Three Houses of Low Environmental İpact. Building and Environment, 41(7), 902-909.
  • Guerlain, C., Renault, S. & Ferrero, F. (2019). Understanding Construction Logistics in Urban Areas and Lowering its Environmental İmpact: A Focus on Construction Consolidation Centres. Sustainability, 11(21), 6118.
  • Home Solutions. (2024). What Does Accessibility Construction Mean? Retrieved January 24, 2024. from https://www.intrendhs.com/what-does-accessibility-construction-mean/
  • Hoşkara, E., & Sey, Y. (2009). Ülkesel Koşullar Bağlamında Sürdürülebilir Yapım. İTÜ Dergisi/a, 7(1).
  • Huo, T., Ren, H., Zhang, X., Cai, W., Feng, W., Zhou, N., & Wang, X. (2018). China’s Energy Consumption in the Building Sector: A Statistical Yearbook-Energy Balance Sheet Based Splitting Method. Journal of Cleaner Production, 185, 665-679.
  • Hwang, B. G., Zhu, L., Wang, Y., & Cheong, X. (2017). Green Building Construction Projects in Singapore: Cost Premiums and Cost Performance. Project Management Journal, 48(4), 67-79.
  • IPCC. (2014). Fifth Assessment Report: Summary for Policy Makers. Intergovernmental Panel on Climate Change Geneva, Switzerland.
  • John, G., Clements-Croome, D., & Jeronimidis, G. (2005). Sustainable Building Solutions: A Review of Lessons from the Natural World. Building and Environment, 40(3), 319-328.
  • Kibert, C. J. (2016). Sustainable Construction: Green Building Design and Delivery. John Wiley & Sons.
  • Kutsal, S., & Polatoğlu, Ç. (2023). Türkiye’de Artan Konut İhtiyacı ve Konut Sorununun Dinamikleri. Topkapı Sosyal Bilimler Dergisi, 2(1), 133-158.
  • LaMotte, L. R. (2017). Proportional Subclass Numbers in Two-Factor ANOVA. Statistics, 1–11. https://doi.org/10.1080/02331888.2017.1319834
  • Latham, A. (2024). Accessibility: How can Accessibility be İmproved in Building Design? Retrieved January 10, 2024. from https://www.latham-australia.com/blog/access-ability-how-can-accessibility-be-improved-in-building-design
  • Low, N. (2000). Consuming Cities: The Urban Environment in the Global Economy After the Rio Declaration. Psychology Press.
  • Mann, P. S. (1995). Introductory Statistics. New York: Wiley.
  • Melchert, L. (2007). The Dutch Sustainable Building Policy: A Model for Developing Countries? Building and Environment, 42(2), 893-901.
  • Ministry of Environment and Urbanization. (2018). Türkiye Çevre Sorunları ve Öncelikleri Değerlendirme Raporu, Ankara.
  • Muerza, V., & Guerlain, C. (2021). Sustainable Construction Logistics in Urban Areas: A Framework for Assessing the Suitability of the İmplementation of Construction Consolidation Centres. Sustainability, 13(13), 7349.
  • Narin, M. & Akdemir S. (2006). Enerji Verimliliği ve Türkiye, UEK-TEK 2006 Uluslararası Ekonomi Konferansı, Türkiye Ekonomi Kurumu, 11-13 Eylül 2006, Ankara.
  • Nassar, K., Thabet, W., & Beliveau, Y. (2003). A Procedure for Multi-Criteria Selection of Building Assemblies. Automation in Construction, 12(5), 543-560.
  • Ozawa-Meida, L., Greenough, R. M., Taylor, S., Acquaye, A., & Ibn-Mohammed, T. (2013). Operational vs. Embodied Emissions in Buildings-A Review of Current Trends, Energy Build 2013; 66:232e45. http://dx.doi.org/10.1016/j.enbuild.2013.07.026.
  • Özmehmet, E. (2008). Dünyada ve Türkiye Sürdürülebilir Kalkinma Yaklaşimlari. Yaşar Üniversitesi E-Dergisi, 3(12), 1853-1876.
  • Park, W. J., Kim, R., Roh, S., & Ban, H. (2020). Analysis of Major Environmental İmpact Categories of Road Construction Materials. Sustainability, 12(17), 6951.
  • Pappu, A., Saxena, M., & Asolekar, S. R. (2007). Solid Wastes Generation in India and Their Recycling Potential in Building Materials. Building and Environment, 42(6), 2311-2320.
  • Purnama, I. (2023). Increasing Understanding of One-Way ANOVA Material for Accounting Students: A Case Study of Deposit Interest. Reflection: Education and Pedagogical Insights, 1(2), 69-73.
  • Rogers, P. P., Jalal, K. F., & Boyd, J. A. (2008). Sustainable development İndicators (pp. 116-122). An İntroduction to Sustainable Development. London: Earthscan.
  • Sala, S., Ciuffo, B. and Nijkamp, P. (2015). A Systemic Framework for Sustainability Assessment. Ecological Economics, 119, pp. 314-325.
  • Sartori, I., & Hestnes, A. G. (2007). Energy use in the Life Cycle of Conventional and Low-Energy Buildings: A Review Article. Energy and Buildings, 39(3), 249-257.
  • Shari, Z., & Soebarto, V. (2012). Delivering Sustainable Building Strategies in Malaysia: Stakeholders’ Barriers and Aspirations. Alam Cipta, International Journal of Sustainable Tropical Design Research and Practice, 5(2), 3-12.
  • Solomon, K. R. (2008). Effects of Ozone Depletion and UV‐B Radiation on Humans and the Environment. Atmosphere-Ocean, 46(1), 185-202.
  • Spanish Presidency of the Council of the European Union. (2023). Gijón Declaration: Housing for All in Sustainable, Healthy, and İnclusive Built Environments, Retrieved Fabruary 15, 2024. from https://spanish-presidency.consilium.europa.eu/en/news/
  • Tatum, M. (2023). What is Economic Sustainability? Retrieved December 15, 2023 from http://www.wisegeek.org/what-is-economic-sustainability.htm
  • The Build Chain. (2023). The Economics of Sustainable Construction Materials: Balancing Cost and Environmental Benefits, Retrieved December 10, 2023. from https://www.thebuildchain.co.uk/news/
  • Tıraş, H. H. (2012). Sürdürülebilir Kalkınma ve Çevre: Teorik Bir İnceleme. Kahramanmaraş Sütçü İmam Üniversitesi İktisadi ve İdari Bilimler Fakültesi Dergisi, 2(2), 57-73.
  • Tillman, A. M. (2009). The Hitch Hiker's Guide to LCA: An Orientation in Life Cycle Assessment Methodology and Application. Studentlitteratur.
  • Treloar, G., Fay, R., Ilozor, B., & Love, P. (2001). Building Materials Selection: Greenhouse Strategies for Built Facilities. Facilities, 19(3/4), 139-150.
  • Turkish Standards Institute. (2023). Su Ayak İzi Raporlama ve Kritik Gözden Geçirme, Retrieved February 23, 2024. from https://www.tse.org.tr/su-ayak-izi-raporlama-ve-kritik-gozden-gecirme/
  • TURKSTAT. (2023). Veri Portalı, Retrieved February 23, 2024. from https://data.tuik.gov.tr/Bulten/Index?p=Istatistiklerle-Aile-2022-49683
  • UN ESCAP. (2021). Report of the Working Group on Dry Ports on its 4th Meeting of Economic and Social Commission for Asia and the Pacific.
  • UN-Habitat. (2011a). Affordable Land and Housing in Africa United Nations Human Settlement Programme.
  • UN-Habitat. (2011b). i-House Strategy Paper, Version 2: 28, UN-Habitat: Nairobi.
  • UN Habitat. (2012). Going Green: A Handbook of Sustainable Housing Practices Nairobi, Kenya United Nations Human Settlements Programme.
  • United Nations Environment Programme. (2024). Beyond Foundations Global Status Report for Buildings and Construction Mainstreaming Sustainable Solutions to Cut Emissions from the Buildings Sector, UNEP and GlobalABC.
  • Van Kesteren, I. E. H. (2008). Product Designers’ İnformation Needs in Materials Selection. Materials & Design, 29(1), 133-145.
  • Wang, W., Zmeureanu, R., & Rivard, H. (2005). Applying Multi-Objective Genetic Algorithms in Green Building Design Optimization. Building and Environment, 40(11), 1512-1525.
  • Wang, M., & Sun, X. (2013). Bayes Factor Consistency for Unbalanced ANOVA Models. Statistics: A Journal of Theoritical and Applied Statistics, 47(5), 1104–1115. https://doi.org/10.1080/02331888.2012.694445
  • WBDG. (2022). Whole Building Design Guide, Retrieved September 10, 2023. from https://www.wbdg.org/design-objectives/accessible
  • WCED, U. (1987). Our Common Future. World Commission on Environment and Development, Oxford University Press.
  • Wilson, J. L., & Tagaza, E. (2006). Green Buildings in Australia: Drivers and Barriers. Australian Journal of Structural Engineering, 7(1), 57-63.
  • Worldometer. (2023). Gerçek Zamanlı Dünya İstatistikleri. Retrieved February 14, 2024. from https://www.worldometers.info/tr/
  • World Green Building Council. (2023). What is a Sustainable Built Environment?, Retrieved February 22, 2024. from https://worldgbc.org/what-is-a-sustainable-built-environment/
  • Yang, L., Yan, H., & Lam, J. C. (2014). Thermal Comfort and Building Energy Consumption İmplications–a Review. Applied energy, 115, 164-173.
  • Yao, R. (2013). Sustainability in the Built Environment. Design and Management of Sustainable Built Environments, 1-22.
  • Yıldız, D., Başlamışlı Y., Özgüler, H., Demir, N. & Kandemir, F., (2021). Doğal Göllerimizin Durumu ve Acil Önlem İhtiyacı, Su Politikaları Derneği, Report no: 41.
  • Zaini, A. A. (2016). A model for İmplementation of Green Construction (Doctoral Dissertation, University Technology MARA).
  • Zhang, X., Platten, A., & Shen, L. (2011). Green Property Development Practice in China: Costs and Barriers. Building and Environment, 46(11), 2153-2160.
  • Zhou, L., Keivani, R., & Kurul, E. (2008). The Economic Benefits of Sustainable PFI Project: A Case Study of Newport Southern Distributor Road.
There are 94 citations in total.

Details

Primary Language English
Subjects Ecology, Sustainability and Energy
Journal Section All Articles
Authors

Serkan Yıldız 0000-0002-6020-1993

Gülnaz Şengül Güneş 0000-0001-8961-9210

Berkan Alim 0009-0003-4504-7013

Publication Date October 27, 2024
Submission Date March 8, 2024
Acceptance Date October 27, 2024
Published in Issue Year 2024 Volume: 17 Issue: Sürdürülebilir İnsani Kalkınma ve Kent

Cite

APA Yıldız, S., Şengül Güneş, G., & Alim, B. (2024). Criteria in Building Material Selection and The Role of Sustainability. Kent Akademisi, 17(Sürdürülebilir İnsani Kalkınma ve Kent), 334-354. https://doi.org/10.35674/kent.1448627

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